EXOLIT AP 750

EXOLIT AP 750

CAS: 13463-67-7
European Community (EC) Number: 236-675-5
IUPAC Name: dioxotitanium

Primary product use: flameproofing agents
Chemical family: Ammonium polyphosphate with nitrogen containing synergists

Exolit AP 750 is a non-halogenated flame retardant based on ammonium polyphosphate as main component, which develops its effectiveness through phosphorus/nitrogen synergism. 
In contrast to similar competitive material, Exolit AP 750 shows high processing stability. 
Exolit AP 750 differs in its mode of action from non phosphorus-based flame retardants (e. g. brominated, chlorinated or mineral FRs like ATH) by achieving its effect through intumescence. 
Material containing Exolit AP 750 will foam on exposure to flame. 
The carbon-rich foam layer so formed will protect the polymer and in many cases the substrate below through its heat-insulating effect, reduces further oxygen access and prevents dripping in case of a thermoplastic based formulation. 
Beyond the primary effects on fire behavior such as reduction of flame propagation rate, rate of heat release, dripping behavior, residual lengths of test specimens after flame tests etc., positive secondary fire effects such as low smoke density, no release of corrosive off-gases, lower formation of toxic smoke gases are of great interest.

Exolit AP 750 is an intumescent ammonium polyphosphate. 
Exolit AP 750 acts as a halogen-free, flame retardant. 
Exhibits high processing stability. 
Exolit AP 750 offers low smoke density and lower formation of corrosive gases. 
Suitable for thermoplastic polyolefins, thermoset polymers and rigid urethane foams.
Exolit AP 750 has a shelf life of 12 months.

Ammonium polyphosphate. 
Acts as a non-halogenated flame retardant.

Exolit AP 750 is particularly effective in thermoplastic polyolefins (e. g. polyolefin hotmelts), urethanes (e. g. integral skin foams,rigid foams, sealants) and epoxy resins (adhesives, sealants, structural laminates, gelcoats). 
For epoxy resins used in Electrical/Electronics application, other Exolit products can be recommended depending on certain requirements.

Thanks to its intumescent behavior, the use of Exolit AP 750 is particularly useful in epoxy based gelcoats or PU coatings.Beyond the reduced flammability of the gelcoat itself, the char foam created when exposed to flame may also further thermally insulate the underlaying substrate (e. g. a structural composite part). 
Depending on the fire test and classification to pass, thewhole system (laminate + gelcoat) could pass the test by only adding Exolit AP 750 in the gelcoat.
For more demanding requirements (e. g. M1 according to NF P 92501), only minimal amounts of additional FR (e. g. ATH or Exolit AP 422) might be necessary to add into the laminates. 
To develop its effect, the intumescent gelcoat should be applied at a thickness of 0.5- 1 mm.

Benefits:

-Non-halogenated flame retardant based on ammonium polyphosphate as main component, which develops its effectiveness through phosphorus/nitrogen synergism

-Shows high processing stability in contrast to similar competitive material

-Differs in its mode of action from non-phosphorus-based flame retardants (e. g. brominated, chlorinated or mineral FRs like ATH) by achieving its effect through intumescence

-Particularly effective in thermoplastic polyolefins (e. g. polyolefin hotmelts), urethanes (e. g. integral skin foams, rigid foams, sealants), and epoxy resins (adhesives, sealants, structural laminates, gelcoats)

-Positive secondary fire effects such as low smoke density, lower formation of toxic smoke or corrosive gases

-Non-halogenated flame retardant with favorable environmental and health profile

Applications:

Exolit AP 750 is particularly effective in thermoplastic polyolefins (e. g. polyolefin hotmelts), urethanes (e. g. integral skin foams, rigid foams, sealants) and epoxy resins (adhesives, sealants, structural laminates, gelcoats). 
For epoxy resins used in Electrical/Electronics application, other Exolit products can be recommended depending on certain requirements.

Thanks to its intumescent behavior, the use of Exolit AP 750 is particularly useful in epoxy based gelcoats or PU coatings. 
Beyond the reduced flammability of the gelcoat itself, the char foam created when exposed to flame may also further thermally insulate the underlaying substrate (e. g. a structural composite part). 
Depending on the fire test and classification to pass, the whole system (laminate + gelcoat) could pass the test by only adding Exolit AP 750 in the gelcoat. 
For more demanding requirements (e. g. M1 according to NF P 92501), only minimal amounts of additional FR (e. g. ATH or Exolit AP 422) might be necessary to add into the laminates. 
To develop its effect, the intumescent gelcoat should be applied at a thickness of 0.5 - 1 mm.

Achievable Fire standards:
When suitably formulated, the Exolit AP 750 can help to pass many fire standards for fire & smoke requirements.

SYNONYMS:

TITANIUM DIOXIDE

Rutile

dioxotitanium

13463-67-7

Anatase

Titania

Titanium(IV) oxide

1317-70-0

1317-80-2

Titanium White

Anatase (TiO2)

Flamenco

Hombitan

Titafrance

Titandioxid

Tiofine

Tioxide

Tipaque

Titanox

Rayox

Rutile (TiO2)

Bayertitan A

Titanic anhydride

Rutiox CR

Tioxide RHD

Tioxide RSM

Titanox RANC

Zopaque LDC

A-Fil Cream

Calcotone White T

Tioxide A-DM

Tioxide AD-M

Tioxide R-CR

Tioxide R-SM

Tioxide R.XL

Titanium oxide (TiO2)

Bayertitan R-U-F

Levanox White RKB

A-Fil

Runa rh20

Unitane or-150

Unitane or-340

Unitane or-342

Unitane or-350

Unitane or-540

Unitane or-640

Austiox R-CR 3

Cab-O-Ti

Hombitan R 101D

Hombitan R 610K

Unitane o-110

Unitane o-220

Horse head a-410

Horse head a-420

Horse head r-710

Kronos RN 40P

Kronos RN 56

Tipaque R 820

Titanox 2010

Unitane OR 450

Unitane OR 650

Kronos CL 220

Kronos titanium dioxide

Kronos 2073

Runa ARH 20

1700 White

P 25 (oxide)

C.I. Pigment White 6

Runa ARH 200

Ti-Pure R 900

Ti-Pure R 901

Titanium peroxide (TiO2)

Tiona t.d.

Atlas white titanium dioxide

C-Weiss 7

Titanium(IV) oxide, anatase

Cosmetic White C47-5175

Cosmetic White C47-9623

RO 2

NCI-C04240

Titanium(IV) oxide, rutile

KH 360

CI 77891

TiO2

C.I. 77891

E 171

R 680

Titanium dioxide [USP]

Brookite

MFCD00011269

Octahedrite

Sagenite

Tichlor

Unitane

Zopaque

Kronos

Tronox

Titanic oxide

Titanium dioxide (USP)

Bayertitan T

Tiona td

Titan White

Anatase titanium dioxide

Tin dioxide dust

Titanium peroxide

Uniwhite AO

Uniwhite KO

Trioxide(s)

Unitane OR

Pigment white 6

Ti-Pure

Bayertitan AN 3

Austiox R-CR

Tioxide A-HR

Tioxide R XL

Bayertitan R-U 2

Bayertitan R-FK-D

Aerosil P 25

Aerosil P 27

Bayertitan R-FD 1

Bayertitan R-KB 2

Bayertitan R-KB 3

Bayertitan R-KB 4

Bayertitan R-KB 5

Bayertitan R-KB 6

Titandioxid (sweden)

Aerolyst 7710

CI Pigment white 6

Uniwhite OR 450

Uniwhite OR 650

Tinoc M 6

Aerosil P 25S6

Aerosil T 805

Octahedrite (mineral)

AK 15 (pigment)

Titandioxid [Swedish]

Bayer R-FD 1

Blend White 9202

63B1 White

Bayertitan

Bayertitan R-FK 21

Titanium oxide (VAN)

A 200 (pigment)

A 330 (pigment)

Amperit 780.0

B 101 (pigment)

Baytitan

Kronos 1002

R 830 (mineral)

Unitane 0-110

Unitane 0-220

C-Weiss 7 [German]

MC 50 (oxide)

C 97 (oxide)

CG-T

NT 100 (oxide)

MFCD00210650

Bayertitan R-V-SE 20

S 150 (oxide)

Titanium(IV) oxide, catalyst support

Bistrater L-NSC 200C

15 wt% Titanium Oxide in Water Nano

CCRIS 590

A-FN 3

HSDB 869

NCI-C0424O

O2Ti

AUF 0015S

AMT 100

AMT 600

JR 600A

Rutile titanium dioxide

Cosmetic Hydrophobic TiO2 9428

234DA

500HD

Cosmetic Micro Blend TiO2 9228

EINECS 215-280-1

EINECS 215-282-2

EINECS 236-675-5

CL 310

NSC 15204

Orgasol 1002D White 10 Extra Cos

Titanium(IV) Oxide, Anatase Nanoparticles / Nanopowder

1385RN 59

AI3-01334

BR 29-7-2

CCRIS 9317

CCRIS 9325

Titanium-Dioxide

dioxyde de titane

(rutile)

bis(oxido)titanium

dioxido de titanio

component of A-Fil

TITANIUM DIOXIDE ENAMEL GRADE

98084-96-9

oxido de titanio(IV)

Titanium Oxide Anatase

Titanium oxide, TiO2

Titanium Dioxide Rutile

Titanium( cento) oxide

Titania paste, reflector

Titanium oxide (JP17)

Titanium dioxide (TiO2)

Titania paste, transparent

WLN: TI O

EC 215-282-2

EC 236-675-5

[TiO2]

Titania paste, active opaque

Titanium(IV) oxide nanopowder

Titanium (IV) Oxide Anhydrous

Titanium(IV) oxide, 1 micron

Titanium(IV) oxide, 98.0%

CHEBI:32234

s212

TITANIUM DIOXIDE (ANATASE)

NSC15204

Titanium(IV) oxide, sintered lumps

Nano Titanium Dioxide Anatase Powder

NSC-15204

AKOS015913799

DB09536

Titanium Dioxide-Rutile type BLR-699

Titanium(IV) oxide, high surface area

Titanium Dioxide Anatase type BLA-200

NCGC00187590-01

Titanium dioxide, NIST(R) SRM(R) 154c

Titanium(IV) oxide, rutile, single crystal

FT-0645791

FT-0778081

Titanium Oxide (anatase) Powder, 99% Nano

D01931

T-3875

Titanium(IV) oxide, ReagentPlus(R), >=99%

Q193521

Titanium(IV) oxide, SAJ first grade, >=98.0%

J-006053

Titanium(IV) oxide, JIS special grade, >=99.0%

Titanium(IV) oxide, Vetec(TM) reagent grade, 99%

Titanium dioxide, NIST(R) SRM(R) 1898, nanomaterial

Titanium(IV) oxide, 20-35% in H2O colloidal dispersion

Titanium(IV) oxide, rutile, >=99.98% trace metals basis

Titanium(IV) oxide, rutile, 99.995% trace metals basis

Titanium dioxide (airborne, unbound particles of respirable size

Titanium(IV) oxide, anatase, powder, 99.8% trace metals basis

Titanium(IV) oxide, nanowires, diam. x L ~10 nm x 10 mum

Titanium(IV) oxide, nanowires, diam. x L ~100 nm x 10 mum

Titanium dioxide, NIST RM 8988, powder, particle size distribution

Titanium(IV) oxide, pellets, diam. x thickness 12.5 mm x 5.5 mm

Titanium dioxide, United States Pharmacopeia (USP) Reference Standard

Titanium Oxide Dispersion (Anatase, 20 wt%, 5-30 nm) Nano in Water

Titanium(IV) oxide, anatase, powder, -325 mesh, >=99% trace metals basis

Titanium(IV) oxide, rutile, powder, <5 mum, >=99.9% trace metals basis

Titanium(IV) oxide, anatase, nanopowder, <25 nm particle size, 99.7% trace metals basis

Titanium(IV) oxide, naturally occurring mineral, grains, approximately 0.06-0.19in

Titanium(IV) oxide, rutile, nanopowder, <100 nm particle size, 99.5% trace metals basis

Titanium(IV) oxide, contains 1% Mn as dopant, nanopowder, <100 nm particle size (BET), >=97%

Titanium(IV) oxide, mixture of rutile and anatase, nanoparticle, <250 nm particle size (DLS), paste, 53-57 wt. % in diethylene glycol monobutyl ether/ethylene glycol, 99.9% trace metals basis

Titanium(IV) oxide, mixture of rutile and anatase, nanoparticles, <100 nm particle size, dispersion, 48-52 wt. % in xylene, 99.9% trace metals basis

Titanium(IV) oxide, mixture of rutile and anatase, nanoparticles, <150 nm particle size (volume distribution, DLS), dispersion, 33-37 wt. % in H2O, 99.5% trace metals basis

Titanium(IV) oxide, mixture of rutile and anatase, nanopowder, <100 nm particle size (BET), 99.5% trace metals basis

Titanium(IV) oxide, nanopowder, 21 nm primary particle size (TEM), >=99.5% trace metals basis

Titanium(IV) oxide, puriss., meets analytical specification of Ph. Eur., BP, USP, 99-100.5%

Titanium(IV) oxide, rutile, &#60;001&#62;, (single crystal substrate), 99.99% trace metals basis, L x W x thickness 10 mm x 10 mm x 0.5 mm

Titanium(IV) oxide, rutile, &#60;100&#62;, (single crystal substrate), 99.99% trace metals basis, L x W x thickness 10 mm x 10 mm x 0.5 mm

Titanium(IV) oxide, rutile, &#60;110&#62;, single crystal substrate, 99.99% trace metals basis, L x W x thickness 10 mm x 10 mm x 0.5 mm